基本信息
浏览量:122
职业迁徙
个人简介
Research interests
Professor René de Borst’s research concentrates on computer simulations of materials and structures, with the aim to make structures more robust and resilient to extreme loadings.
His work covers several topics in engineering mechanics and engineering materials, such as the mechanical properties of concrete, soils, composites and rubbers, in particular the development of mathematical and numerical models for deformation and failure.
His most significant work is on fracture, computational mechanics, frictional materials, and is of relevance in civil engineering, structural engineering, and aerospace engineering. His research also extends into the interaction between porous materials and fluid flow through them.
His numerical modelling allows virtual prototyping, thus avoiding expensive physical testing, and helps to optimise materials and structures for maximum strength, durability and safety, using a minimum of resources.
Some examples where his research can be applied:
Earthquakes – to predict forces, deformation and collapse loads.
Hydraulic fracturing – to understand and predict how fluid-filled fractures propagate.
Waste storage – to predict how contaminated fluid moves in subsurface formations.
The human body – for instance, cell motility is governed by mechanics and chemistry, while soft tissues are filled with fluids and ions, and prediction of fracture requires knowledge of the interaction between them.
Research group
Computational Mechanics & Design
Geotechnical Engineering
Professor René de Borst’s research concentrates on computer simulations of materials and structures, with the aim to make structures more robust and resilient to extreme loadings.
His work covers several topics in engineering mechanics and engineering materials, such as the mechanical properties of concrete, soils, composites and rubbers, in particular the development of mathematical and numerical models for deformation and failure.
His most significant work is on fracture, computational mechanics, frictional materials, and is of relevance in civil engineering, structural engineering, and aerospace engineering. His research also extends into the interaction between porous materials and fluid flow through them.
His numerical modelling allows virtual prototyping, thus avoiding expensive physical testing, and helps to optimise materials and structures for maximum strength, durability and safety, using a minimum of resources.
Some examples where his research can be applied:
Earthquakes – to predict forces, deformation and collapse loads.
Hydraulic fracturing – to understand and predict how fluid-filled fractures propagate.
Waste storage – to predict how contaminated fluid moves in subsurface formations.
The human body – for instance, cell motility is governed by mechanics and chemistry, while soft tissues are filled with fluids and ions, and prediction of fracture requires knowledge of the interaction between them.
Research group
Computational Mechanics & Design
Geotechnical Engineering
研究兴趣
论文共 701 篇作者统计合作学者相似作者
按年份排序按引用量排序主题筛选期刊级别筛选合作者筛选合作机构筛选
时间
引用量
主题
期刊级别
合作者
合作机构
Advanced Structured MaterialsSixty Shades of Generalized Continuapp.159-170, (2023)
引用0浏览0引用
0
0
GEOCHEMISTRY GEOPHYSICS GEOSYSTEMSno. 7 (2023)
引用0浏览0引用
0
0
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING (2023)
INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES (2023): 112496-112496
International Journal for Numerical Methods in Engineeringno. 8 (2022): 1861-1881
International Journal for Numerical Methods in Engineeringno. 3 (2022): 620-638
International Journal for Numerical Methods in Engineering (2022)
加载更多
作者统计
合作学者
合作机构
D-Core
- 合作者
- 学生
- 导师
数据免责声明
页面数据均来自互联网公开来源、合作出版商和通过AI技术自动分析结果,我们不对页面数据的有效性、准确性、正确性、可靠性、完整性和及时性做出任何承诺和保证。若有疑问,可以通过电子邮件方式联系我们:report@aminer.cn